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Health & Medicine

The Museum's collections of medical science artifacts represent nearly all aspects of health and medical practice. Highlights include early X-ray apparatuses, such as one of Wilhelm Roentgen's tubes, penicillin mold from Alexander Fleming’s experiments, and Jonas Salk's original polio vaccine. More recent acquisitions include the first artificial heart implanted in a human, the earliest genetically engineered drugs, and materials related to David, the "Bubble Boy." Other artifacts range from artificial limbs and implant devices to bloodletting and dental instruments, beauty products, and veterinary equipment. The contents of a medieval apothecary shop and an 1890s drugstore form part of the collections, along with patent and alternative medicines. The collections also document the many differing perspectives on health and medical issues, from patients, family members, doctors, nurses, medical students, and out-of-the-mainstream health practitioners.

Pin-back buttons serve many purposes. They are efficient advertising vehicles, handy for fund-raising in support of a cause, concise statements of a person’s beliefs, a form of educational outreach, and convenient ice-breakers for conversation. NMAH has several hundred pin-back buttons related to disability, including this one.

Jonas Salk first tested his polio vaccine on humans in July 1952 when he inoculated thirty children at the D. T. Watson Home for Crippled Children near Pittsburgh, Pennsylvania. These children had already had polio, so Salk's test was designed to prove that his vaccine would create a higher level of immunity than a natural infection. Salk also tested his vaccine on residents of the Polk State Home and on himself and members of his laboratory staff.

This vial contains residue of polio vaccine from these first tests. The polio virus exists in hundreds of different strains, all of which fall into three major types. A complete vaccine must contain a strain from each of these three types. However, the children at the Watson Home received only one type of vaccine matching the strain of their original polio infection. This vial is labeled for the Mahoney strain (Type I).

Jonas Salk first tested his polio vaccine on humans in July 1952 when he inoculated thirty children at the D. T. Watson Home for Crippled Children near Pittsburgh, Pennsylvania. These children had already had polio, so Salk's test was designed to prove that his vaccine would create a higher level of immunity than a natural infection. Salk also tested his vaccine on residents of the Polk State Home and on himself and members of his laboratory staff.

This vial contains residue of polio vaccine from these first tests. The polio virus exists in hundreds of different strains, all of which fall into three major types. A complete vaccine must contain a strain from each of these three types. However, the children at the Watson Home received only one type of vaccine matching the strain of their original polio infection. This vial is labeled for the Saukett strain (Type III).

Jonas Salk first tested his polio vaccine on humans in July 1952 when he inoculated thirty children at the D. T. Watson Home for Crippled Children near Pittsburgh, Pennsylvania. These children had already had polio, so Salk's test was designed to prove that his vaccine would create a higher level of immunity than a natural infection. Salk also tested his vaccine on residents of the Polk State Home and on himself and members of his laboratory staff.

This vial contains residue of polio vaccine from these first tests. The polio virus exists in hundreds of different strains, all of which fall into three major types. A complete vaccine must contain a strain from each of these three types. However, the children at the Watson Home received only one type of vaccine matching the strain of their original polio infection. This vial is labeled for the MEF-1 strain (Type II).

Several types of heart-lung machines and oxygenators were developed in the 1950’s and 1960’s. The Smithsonian’s collection includes roller pumps, membrane, and bubble oxygenators. This rotating screen oxygenator was developed by Clarence Dennis (1909-2003) and colleagues in 1947. Blood entered the oxygenator through a low speed jet in the center of the revolving screen disc and a film of blood is laid on the disc by centrifugation and gravity. The rotating screen oxygenator was efficient and relatively easy to clean.

“The Mechanical Heart” also known as the Michigan Heart had the ability to bypass both the patient’s heart and lungs allowing surgeons a “dry” field on which to work. The Dodrill-GMR heart project was a collaborative effort led by Dr. Forest Dewey Dodrill of Harper Hospital in Detroit, Michigan and General Motors Research Laboratory.

The Dodrill-GMR Heart was used in the first successful open heart operation July 3, 1952. The patient, a forty-one year old male, had a deformed mitral valve which was successfully repaired